Early cellular and molecular signatures correlate with severity of West Nile virus infection
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Infection with West Nile virus (WNV) drives a wide range of responses, from asymptomatic to flu-like symptoms/fever or severe cases of encephalitis and death. To identify cellular and molecular signatures distinguishing WNV severity, we employed systems profiling of peripheral blood from asymptomatic and severely ill individuals infected with WNV. We interrogated immune responses longitudinally from acute infection through convalescence employing single-cell protein and transcriptional profiling complemented with matched serum proteomics and metabolomics as well as multi-omics analysis. At the acute time point, we detected both elevation of pro-inflammatory markers in innate immune cell types and reduction of regulatory T cell activity in participants with severe infection, whereas asymptomatic donors had higher expression of genes associated with anti-inflammatory CD16<sup>+</sup> monocytes. Therefore, we demonstrated the potential of systems immunology using multiple cell-type and cell-state-specific analyses to identify correlates of infection severity and host cellular activity contributing to an effective anti-viral response.
Date issued
2023-12-15Department
Institute for Medical Engineering and Science; Massachusetts Institute of Technology. Department of Chemistry; Koch Institute for Integrative Cancer Research at MIT; Broad Institute of MIT and Harvard; Ragon Institute of MGH, MIT and Harvard; Klarman Cell Observatory (Broad Institute)Journal
iScience
Publisher
Elsevier BV
Citation
Lee, Ho-Joon, Zhao, Yujiao, Fleming, Ira, Mehta, Sameet, Wang, Xiaomei et al. 2023. "Early cellular and molecular signatures correlate with severity of West Nile virus infection." iScience, 26 (12).
Version: Final published version